Superconducting dome and structural changes in LaRu3Si2 under pressure

Abstract

LaRu3Si2 is of current research interest as a kagome metal with a superconducting transition temperature, Tc7 K and higher temperature charge density wave (CDW) orders. Here we report electrical transport and X-ray diffraction measurements on LaRu3Si2 under pressure up to 65 GPa and 35 GPa respectively. The superconducting transition temperature Tc first gets slightly enhanced and reaches a maximum 8.7 K at 8.5 GPa. With further applied pressure, Tc is initially gradually suppressed, then more rapidly suppressed, followed by gradual suppression, revealing a superconducting dome. Two possible pressure-induced structural phase transitions are also observed at room temperature, from original hexagonal phase to another hexagonal structure above 11.5 GPa, and further to a structure with lower symmetry above 23.5 GPa. These transition pressures roughly correlate with features found in our pressure dependent transport data.

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